EP0872750B1 - Junction box with a holding device for cassettes for storing optical fibres and their splices - Google Patents

Description

The invention relates to a cable sleeve with a holding device for cassettes for storing and splicing optical fibers, each cassette is individually accessible and each cassette is individually accessible and where further each cassette on a cassette holder in one Locking mechanism around a running along a longitudinal edge Swivel axis arranged foldable and in at least one Position can be locked, the optical fiber in a free space of the cassette holder to the individual Cassettes are guided.

From the patent application WO 96/32660 a hood sleeve is made a hood body and a sealing body with cable inlets and an annular sealing device between the hood body and the sealing body known, the sealing body a holding device for mechanical connection of the hood body with the sealing body. There is also a Cassette carrier for optical fiber cassettes known, the is attached to the sealing body in the interior of the hood sleeve. The individual cassettes are parallel in a block formation arranged side by side and can either be moved or made accessible by pivoting around a pivot point become.

From US 5,323,478 is a cassette arrangement for Optical fiber known in the individual cassettes by one Longitudinal axis are pivotable, locking devices as Locking elements are provided for the pivoted cassettes. The axles and locks are in the middle the long side of a cassette. The launches of the Optical fibers are on the narrow sides of the cassette arranged and on the cassette are guides for the introduced optical fibers.

From US 5,247,603 a cassette arrangement for Optical fibers known, the cassettes also around the Longitudinal axis can be pivoted. Own the cassettes attached axle journals with which they are in a cassette carrier are used. In addition, locking elements are provided by which fix the cassettes in a certain position can.

The splice systems used up to now are often either lacking on the packing density that is required if up to 200 or more fibers per connection or branch point have to be spliced, or there has to be one from the start Selection of the fiber division to be made at later changes do not change or change only with great difficulty leaves. With different cabling concepts, however different cassettes are also required, but then not are more interchangeable. The wiring in the So far, sleeve has been more cable-oriented and can accidental interference from transmissions in fibers Carry out switching and maintenance work.

The object of the invention is a wide variety of splice systems of fiber optic connections on the route with just one Carry out cassette execution and later changes without problems to be able to execute. In addition, a customer-oriented Fiber management can be created, which is an optimum between splicing effort and transmission security. The object is now achieved according to the invention with a Cable sleeve of the type mentioned solved in that the swivel axis from two protruding to the side Axle is formed that the axle Have locking cams that the locking mechanism in shape a resilient locking bar is formed, the Has grids and in which the locking cams Axle pins can be snapped into place, by pressing on the Snap bar the grids can be unlocked that the Entries for optical fibers on a cassette each on the one running in the swivel axis Longitudinal edges are arranged that the direction of insertion each Entry obliquely to the swivel axis and from each other repellent tangential to circular guide rails for Optical fibers run that a spare room by a swivel frame attached to the cassette holder is formed in the uncut optical fiber and / or reserve wires are stored, and that the cassettes in the end position or rest position one above the other at a 30 ° angle downward with respect to the horizontal are arranged, and that in the working position at a 30 ° angle upward facing cassettes at the same time are unlockable.

Advantages of the cable sleeve according to the invention with a holding device for cassettes primarily result from that the number of cassettes and the assembly time for the laying and introduction of optical fibers significantly can be lowered. In addition, the leadership of Optical fiber no interference in transmissions in the optical fibers, among other things also with regard to the mutual Influencing, expected. The orders according to the invention can in a through sleeve, in one Main distributor or in different distribution boxes with the same advantages.

A main part of this cassette system according to the invention forms a specially designed cassette for recording, Storage and splicing of the optical fibers. In a shallow Cassette can be spliced up to twelve fibers, which is why appropriate loose tubes are inserted into the cassette.

The fibers are held in by appropriate hold-down devices the cassette is held so that an accidental pop out a fiber is prevented. There are also two circular ones Guides are provided to ensure that the minimum Bending radius of the optical fiber is not exceeded. In addition, there is the possibility that Optical fibers can cross in an 8 shape, whereby the winding sense and thus also the Lets change the output direction of optical fibers. This is used, for example, to combine the fibers in one Loose tube from and to the customer as it is shown in figure 9 is shown.

Furthermore, in the case of the cassette according to the invention Possibility of a maximum of 2 x 6 loose tubes with a diameter from 2 to 2.4 mm and a typical number of fibers of 2 or 4 fibers can be inserted. This has the advantage that a division of high-fiber loose tubes such as Example from an incoming cable on low fiber loose tubes such as an outgoing cable can be. The loose tubes are straight from the cable led into the corresponding cassette, whereby a more compact splicing and thus a reduction in assembly time can be achieved. The cassette according to the invention points along the longitudinal edge, which lies in the pivot axis, at least two journals with which the cassette can be swiveled into the Cassette holder can be used. Furthermore is on everyone Cassette provided a clamping point for reserve cores, the fixing of the fiber ends in the cassette and serves easier detection.

The cassette holder intended to hold the cassettes can preferably accommodate 39 of the cassettes described and can, depending on the needs and the space available surrounding housing can be shortened or lengthened. The cassette holder is directly with the sealing body of the respective Coupled sleeve and can be pivoted away from the sealing body if necessary to be free for later assembly To ensure re-equipping of cables. The cassette holder also has a locking mechanism in which the axes or trunnion of the cassettes can be snapped. There the axles or journals have latching cams which correspond to Interventions of the locking mechanism intervene, it is possible to position the cassettes in at least one position that easy access for one cassette at a time given is. The locking mechanism preferably consists of a resilient locking bar, when pressure is exerted from the side the grid releases so that the starting position or Storage position of the cassettes can be brought back. The screening is expediently carried out over all Cassettes away so that all cassettes when unlocked fall back into their storage position.

At the back of the cassette block is in the area of the Cassette carrier a spare room, in the reserve veins or Uncut loose tubes can be stored. Also the The loose tubes are fed to the individual cassettes across this reserve on the back of the cassette block, whereby great clarity can be achieved. These are used to protect the fiber optic loose tubes after the introduction of the fiber optic cable into the cable sleeve guided in flexible protective tubes, so that the risk of injury can be kept as low as possible. The spare room with a depth of about 30 mm is by a Cassette holder formed swivel frame, and is movably attached to the cassette holder so that it is to the rear can be pivoted. This makes accessibility to the Core insertion area of the cassettes improved. The distance 30 to 40 mm is necessary to connect the loose tubes with the to bring the necessary bending radius to the cassettes. This invention also includes fiber management, which different cabling concepts between the individual Underlying cassettes. Through this fiber management is it is possible to have a variable and customer oriented To provide the cabling concept. So will for example one coming from the main or ring cable Loose tube directly into a distribution cassette. Of from here the fibers assigned to the participant in Protective sleeves divided into the individual splice trays. The Depending on the number of fibers, the subscriber wire can then go directly to the Participants led out of the splice cassette or into individual fibers over protective sleeves in the distribution cassette to be led back. The fibers are then combined there and led to the participant. When 4 or more fibers to multiple participants you get one better overview if a special cassette as a participant cassette is used. This fiber management is in the further explained with reference to figures. Still is Advantage that a single type of cassette as both an input / output cassette, as a connection cassette or as Participant splice cassette can be used. In case of pure connection of two loose tubes with a maximum of 12 fibers a cassette of this type can also be used as a normal splice cassette be used.

Figur 1

zeigt eine Kassette für Lichtwellenleiter für den Aufbau in der Kabelmuffe.

Figur 2

zeigt die Anordnung einer Kassette am Kassettenträger.

Figur 3

zeigt die schwenkbare Anordnung der Kassetten am Kassettenträger.

Figur 4

zeigt die Anordnung des Kassettenträgers am Dichtkörper.

Figur 5

zeigt ein Schaltschema für Zwei- Faser-Führungen zum Teilnehmer.

Figur 6

zeigt ein weiteres Schaltschema für Zwei-Faser-Führungen zum Teilnehmer.

Figur 7

zeigt ein Schaltschema für Vier-Faser-Führungen zum Teilnehmer.

Figur 8

zeigt ein weiteres Schaltschema für Vier-Faser-Führungen zum Teilnehmer.

Figur 9

zeigt ein Schaltschema für Mehr-Faser-Führungen zum Teilnehmer.

Figur 10

zeigt eine modifizierte Kassette für Lichtwellenleiter für den Aufbau in der Kabelmuffe.

Figur 11

zeigt die Anordnung der modifizierten Kassette in perspektivischer Ansicht.

Figur 12

zeigt einen modifizierten Kassettenträger.

The invention will now be explained in more detail with reference to nine figures.

Figure 1

shows a cassette for optical fibers for the assembly in the cable sleeve.

Figure 2

shows the arrangement of a cassette on the cassette carrier.

Figure 3

shows the pivotable arrangement of the cassettes on the cassette carrier.

Figure 4

shows the arrangement of the cassette carrier on the sealing body.

Figure 5

shows a circuit diagram for two-fiber tours to the participant.

Figure 6

shows another circuit diagram for two-fiber tours to the participant.

Figure 7

shows a circuit diagram for four-fiber tours to the participant.

Figure 8

shows another circuit diagram for four-fiber tours to the participant.

Figure 9

shows a circuit diagram for multi-fiber tours to the participant.

Figure 10

shows a modified cassette for optical fibers for the assembly in the cable sleeve.

Figure 11

shows the arrangement of the modified cassette in a perspective view.

Figure 12

shows a modified cassette carrier.

1 shows an approximately semicircular cassette 1 for Optical waveguide according to the invention, on which several guide strips are arranged, which hold down at their upper ends 7 have so that the introduced fiber optic fibers do not jump out of the cassette 1. So are two circular guide profiles or guide strips 2 detect to be inserted around the optical fiber can. This guide makes it possible to use fiber optic fibers between the two circular guide rails to cross, so that opposing guides also possible can be. The entries 6 and 25 are arranged that they are tangent to the circular guide rails 2 run, so that the further leadership without endangering the Optical fiber fibers can be made. Furthermore, one Splice holder 8 provided in the optical fiber splice can be fixed. Along the long edge of the Cassette 1 runs the pivot axis 3, which at least from there are two laterally projecting journal 4 with which the cassette 1 is inserted in the holders of the cassette holder can be. The axle pins 4 shown here have Locking cams 5, with which a locking in the cassette holder is possible. Pins 24 are also provided between which reserve fibers can be fixed. In the introductions 6 and 25 are the protective covers and protective tubes attached, in which the optical fibers of the distribution cassette into the customer or subscriber cassette be performed.

Figure 2 shows a cassette 1 in the cassette holder 9 with their journal 4 in the locking mechanism of the cassette holder 9 is pivotally arranged. The cassette holder 9 instructs both sides as a locking mechanism two spring-loaded Snap bars 12, in their grids (not visible here) engage the locking cams 5 in a locking manner. With side Pressing the locking bar releases the lock and the Cassette 1 can fold back into the appropriate rest position. The arrow 13 indicates in which direction the Snap bar must be pressed to actuate the release. Furthermore, it can be seen in this view from above, that 9 angles 11 are attached to the cassette carrier, by the free space 10 for the fiber guides between the individual Cassettes is determined. Finally is after a pivot frame 16 attached to this free space 10, one Reserve room 17 forms for the storage or management of reserve wires or uncut fiber optic wires.

Figure 3 shows in a section the locking mechanism its locking bars 12, the side of the cassette support 9 resilient are arranged. In this side view you can see that on the cassette holder 9 locking receptacles 14 for receiving the Axle pins 4 of the cassettes 1 are arranged one above the other.

The cassette 1 to be inserted is shown in the above Position inserted in one of these snap-in pictures and then folded down. Now rest in this folding process the locking cams 5 in the sawtooth-like grids 15 of the Snap bar 12 and thereby hold the inserted cassette 1 at an angle, preferably 30 ° upwards. If so the locking bar 12 pressed in the direction of the cassette holder 9 is, the locking cams 5 of the journal 4 are released and the cassette 1 falls down to the rest position, where it persists. If access to a specific cassette 1 is desired, the cassette or cassettes folded up over the selected cassette and paused in the upper resting position. This results in a double Opening angle of preferably 60 °, so that this cassette is accessible for assembly or service purposes. At the upper end An angle 11 of the cassette carrier 9 can still be seen. the swing frame 16 at a certain distance from the cassette block holds. The resulting free space is used for accommodation the protective covers of the single barrels.

FIG. 4 shows that the cassette carrier 9 with its angles 11, which also lock for form the swivel frame 16 on the sealing body 22 of the cable sleeve with a base angle 21 preferably arranged pivotably is. The representation is chosen so that the cassettes 1 for the optical fibers are directed to the rear, the top cassette is folded up so that the one below it is freely accessible. The grids on the side are 15 of the locking mechanism indicated. They are also indicated Cable entries 23 in the sealing body 22 of the cable sleeve. The From here, loose tubes 20 are applied directly to the cassettes 1 managed where they are stored, distributed, spliced accordingly and be returned. The guides of the fiber optic loose tubes or protective covers for fibers 19 and 20 respectively Change or distribute from one cassette to another only hinted at. This hint indicates that this Distribution in an extremely clear form in the free space of the Cassette holder 9 can be produced. Since the Swing frame 16, which for the reception of reserve wires or uncut wires is provided, folded back there is free space for the wire routing between made the cassette carrier 9 easily accessible.

Summarizing FIGS. 3 and 4, the Describe the functional sequence as follows.

On the cassette carrier 9 are located on both sides opposite each of the locking bars already described 12 of the locking mechanism, which preferably consists of an injection molded part are made of plastic. There is a locking mechanism from a part firmly attached to the cassette carrier 9 a spring element and not shown raster 15. With These locking bars 12 are held or fixed the cassettes 1 in the open position, preferably in a 30 ° position from the horizontal upwards. Thereby are assembly work on the fibers in the one below Cassette ensures, as already described. Is the The cassettes above can be finished be unlocked at the same time. They fall in the folded down State in their end position or rest position. she are at an angle of 30 ° with respect to the Horizontal one above the other. In this state the sleeve closed. If necessary, the individual cassettes after opening the cable sleeve for service work in their rest position are in turn folded upwards by 60 °, the snap-in cams already described in the grid 15 takes place. In the formation of the locking cams it is appropriate to provide them with a slope, so that the grids 15 of the locking bars 12 first on this Slide along the slope until the cams catch the slope leave. Then the locking bar springs back, overlaps the locking cam and finally holds the cassette in again the upward 30 ° position. This lock is preferably attached to the cassette carrier 9 on both sides. The The process can be repeated as often as required.

In Figure 5 is a circuit diagram for a two-fiber guide outlined to the participant. An incoming fiber optic loose tube LBE1 or LBE2 from the ring cable RK is with each out two fibers on an input / output cassette Splice cassettes SK divided, spliced and then again summarized in one wire LBA2 over a further division V2, for example a sleeve, a terminal block, a House connection box for several apartments or subscribers etc. led to subscriber TN1 or TN2. Such a circuit diagram can also be used for splicing from ring cable to ring cable if there are participants at this point later should be connected. In the sketched representation for example, there are 5 x 2 fibers for one participant, one core contains 10 fibers. From this it follows that of an input / output cassette EAK1 or EAK2 one Distribution to five splice cassettes SK each. The The house symbolism given above indicates which type of Participants for such a division are cheap.

Figure 6 shows another switching theme for a two-fiber guide to the participant. For example, here are two Fibers in five wires to five participants TN3.1 to TN3.5 or TN4.1 to TN4.5. For each participant two fibers F3.1 to F3.5 or F4.1 to F4.5. This Both fibers per participant are made from the individual splice trays SK in individual fiber optic bundles LBA3.1 to LBA3.5 or LBA4.1 to LBA4.5. Each time an incoming fiber optic loose tube LB3 or LB4 with ten fibers each from the ring cable RK initially on each an EAK3 or EAK4 input / output cassette is inserted. The distribution takes place over the fiber bundle F, which by are surrounded by a protective cover from the input / output cassette EAK3 and EAK4 on five splice cassettes each SK with two fibers each. The house symbolism sketched above illustrates that such a division for Participant of individual houses is suitable.

FIG. 7 shows a circuit diagram for a four-fiber guide to the participant. One incoming fiber optic loose tube LBE5 or LBA5 from both sides of the RK ring cable comes with two fibers each after insertion into an input / output cassette EAK5 with two fibers each on splice cassettes SK5 split, spliced and then combined a participant cassette TNK. This makes the clarity preserved, since from here the individual fibers in two fiber optic bundles LB5.1 and LB5.2 to the participants TN5.1 to TN5.10. Here are 5 x 4 Fibers led to one participant, being in two veins each ten fibers are included. This scheme can also like in the arrangement according to FIG. 5 for splicing ring vein for Participants or from ring wire to ring wire can be used. The house symbolism indicates that this circuit diagram especially for the connection of participants within a Building.

FIG. 8 shows a further circuit diagram for a four-fiber guide to the participant, each with an incoming fiber optic loose tube LBE6 and LBA6 from both sides of the RK ring cable, each with two fibers, split onto SK splice cassettes, spliced and then with each splice cassette SK two fiber optic loose tubes LB6.1E and LB6.2A to LB6.5E or LB6.5A led to participants TN1 to TN5 become. This can be used to create two fibers of five Participants run in 2 x 5 wires with two fibers each. The house symbolism marks the area of application.

Finally, in FIG. 9 there is a circuit diagram for a multi-fiber guide indicated to the participant. Two fibers from each incoming fiber optic loose tubes LBE7 and LBA7 des Ring cables RK are inserted on an input / output cassette EAK7 split onto splice cassettes SK, spliced and in one wire LB7.1 to LB7.5 to the participants TN1 to TN5 continued. Reserve fibers can also be used stored in the cassette.

The circuit diagrams for fiber guides outlined in FIGS. 5 to 9 to the participant indicate that an arrangement a variety of splice trays according to the invention of distribution options allows without principle Type changes are necessary. This results in the optimal Packing density a clear division. Furthermore results yourself a huge saving on assembly work because both the splice cassettes as well as the distribution of the optical fibers simply on the back of the cassette assembly are to be handled.

Another object of the invention is the most varied Splicing systems of fiber optic connections on the line with only one cassette version and subsequent changes to be able to execute easily, this execution the cable sleeve according to the previous claims to be further improved as a modified cable sleeve. This object is now in accordance with the invention a cable sleeve of the type mentioned solved that each cassette individually or in a combined Block can be removed from the cassette holder.

Advantages of the modified cable sleeve according to the invention with a holding device for cassettes arise in the first Line also in that the number of cassettes as well the assembly time for the laying and introduction of the optical fibers can be significantly reduced. Besides, is no impairment when guiding the optical fibers of transmissions in the optical fibers, among others also with regard to the mutual influence. The arrangements according to the invention can be in a through sleeve, in a main distributor or in different Distribution boxes used with the same advantages become.

A main part of this cassette system according to the invention in turn forms a specially suitable, but modified Cassette for receiving, storing and splicing the Optical fiber. Such a cassette can hold up to Splice twelve fibers, for which the appropriate loose tubes in the cassette are inserted. The fibers are through appropriate hold-down device held in the cassette so that prevents accidental popping out of a fiber These hold-down devices are in accordance with the present invention bent down at the ends. There are also two curved ones here Guides are provided to ensure that the minimum Bending radius of the fiber optic cables not undercut becomes. In addition, there is also the possibility that optical fibers can cross in an 8 shape, which makes the winding direction and thus also the starting direction of Optical fibers can be changed. This is used, for example, by Combination of the fibers in a loose tube from and to Customers.

There is also a clamping point for reserve fibers on each cassette provided that the fixation of unused fiber ends in the cassette and for easier locating modified cassette also has two slots for a protective cover assembly through which individual fibers in other cassettes can be divided.

The cassette holder intended to hold the cassettes can also preferably 39 of the cassettes described here can record and depending on the need and the space available of the surrounding housing can be shortened or lengthened. The cassette carrier is directly connected to the sealing body connected to the respective sleeve and can be removed from the sealing body if necessary to be pivoted away for freedom of assembly for later To ensure re-equipping of cables. The cassette holder in turn has a locking mechanism in which the axes or the journal of the cassettes and with locking pins can be anchored. Because the axles or journals Have locking cams in corresponding grids of the locking mechanism, it is possible to insert the cassettes to be positioned in at least one position so that it is easily accessible is given for one cassette at a time. Preferably the locking mechanism consists of a resilient locking bar, the vertical pressure on the cassette Direction releases the grid, so that the starting position or storage position of the cassettes brought about again can be. The solution is expediently Screening across all cassettes so that when unlocking all cassettes pushed back into their storage position can be. The locking mechanism can be related with the cassettes, mainly 7 or 8 pieces, into one Unit. This option is for certain Assembly technologies important, e.g. around the cassettes on the Put down the splicer for splicing the fibers. On the back The cassette block is located in the area of the cassette holder in the modified version as in the original Form a spare room, in the reserve wires or Uncut loose tubes can be stored. Also the The loose tubes are fed to the individual cassettes across this reserve on the back of the cassette block, whereby great clarity can be achieved. These are used to protect the fiber optic loose tubes after the introduction of the fiber optic cable into the cable sleeve guided in flexible protective tubes, so that the risk of injury can be kept as low as possible. The Reserve room with a depth of about 30 mm is replaced by a formed on the cassette bracket pivot frame, and is movably attached to the cassette holder so that it can be moved can be swung back. This makes accessibility improved to the core insertion area of the cassettes. The distance of 30 to 40 mm is necessary to the loose tubes lead to the cassettes with the required bending radius to be able to. This invention also includes fiber management, which different cabling concepts between the individual cassettes. Because of this Fiber management makes it possible to have a variable and to provide customer-oriented cabling concept. For example, one of the main or ring cable incoming loose tube directly into a distribution cassette. From here, the assigned to the participant Fibers divided into protective sleeves for the individual splice trays. The subscriber wire can then directly depending on the number of fibers to the participant out of the splice cassette or in individual fibers via protective sleeves in the distribution cassette to be led back. The fibers are then combined there and led to the participant. When 4 or more fibers to multiple participants you get one better overview if a special cassette as a participant cassette is used. This fiber management is in the further explained with reference to figures. Still is Advantage that a single type of cassette as both an input / output cassette, as a connection cassette or as Participant splice cassette can be used. In case of pure connection of two loose tubes with a maximum of 12 fibers a cassette of this type can also be used as a normal splice cassette be used.

FIG. 10 shows an approximately semicircular cassette 1 for Optical waveguide according to the invention compared to the original Execution has been modified several guide rails arranged at their upper ends Hold down 7 so that the introduced fiber optic fibers do not jump out of the cassette 1. So the originally circular guide profiles or Guide strips 2 can be seen around the optical fiber can be inserted. These guide profiles or profile strips are slightly bent inwards so that the leadership of the Optical fiber between the two guide rails is facilitated. The introductions 6 and 25 are still arranged so that they are tangent to the circular guide rails 2 run, so that the further leadership without risk the fiber optic fibers can be done. Farther a splice holder 8 is provided in the optical fiber splice can be fixed. Along the long edge the cassette 1 runs the pivot axis 3, at least consists of two laterally projecting journals 4, with which the cassette 1 in the holders of the cassette holder can be used. With the help of locking pins, which are clipped into the holes of the journal 4 the cassette 1 fastened in the cassette holder. This one Axle journal 4 shown have locking cams 5 with which latching in the cassette holder is possible, that the cassettes are in a position of plus or minus 30 degrees The journal 4 are closed by brackets, the side of the cassettes in addition to the locking pins hold in the locking strips, as in the others Figures is shown. Pins 24 are also provided, between which reserve fibers can be fixed. In the Entries 6 and 25 become the protective covers or protective tubes attached, in which the optical fibers of the distribution cassette into the customer or subscriber cassette Introduction 6 is for single protection tubes, Introduction 25 is for an overmolded protective cover assembly, which is snapped into place at this point (See also Figure 11). Butt the ends of the protective tubes with their openings to a comb 30 to the entrances of the Tubular bevelled edges. These serve in Connection with grooves 31 in the cassette bottom as an insertion aid to insert the fibers. In the middle of the guide rails 2 there is a label field 32 for the label the splices stored in the splice holder 8.

Figure 11 shows the modified cassette 1 in perspective View taken in cassette holder 9 with its axle journals 4 pivotally arranged in the locking mechanism of the cassette carrier 9 is. The cassette holder 9 has on both sides as Locking mechanism two resilient locking strips 12, in the Grids (not visible here) locking the locking cams 5 intervention. You can also see the locking pins 26 and 27, which can be released as required (version 26) or not detachable (version 27) the cassette in the respective locking strip hold. Furthermore, this view is from above recognize that 9 11 attached to the cassette holder are through which the space 10 for the fiber guides between the individual cassettes is determined. Finally is then a swivel frame 16 is attached to this free space 10, which forms a reserve space 17 for storage or Management of reserve wires or uncut fiber optic wires the protective cover assembly 29 is outlined, the introduced in introduction 25 and in the Comb 30 is pushed in. Furthermore, each cassette 1 is with provided a bracket 28, each over the locking strips 12 of the cassette holder 9 reaches to a fixed Holder of the cassettes 1 when removing the whole To reach the cassette block from the cassette holder 9.

Figure 12 shows a section of the locking mechanism its locking bars 12, the side of the cassette support 9 resilient are arranged. This side view shows the opposite the original form modified execution, whereby It can be seen that the cassettes 1 in turn on the cassette carrier 9 are arranged one above the other. The one to insert Cassette 1 is approximately horizontal in the locking strips introduced to the stop. With the locking strips 26 or 27 the cassette 1 is pivotable between the locking strips held and can be folded from below or above. After this folding process, the cassette 1 is through the Locking cams 5 and the catches 15 on the catch strip in an angle, preferably plus or minus 30 degrees to Held horizontally. Now becomes a force on the outer Cassette edge applied vertically upwards or downwards by hand, so the cassette can be placed in another Position. The locking cams 5 press the Screening 15 in a recess, so that the path for the cassette movement After sliding the locking cam 5 About the grid 15, this springs back again and holds the cassette in the respective position. If now access if a particular cassette 1 is desired, the cassette or the cassettes are placed over the selected cassette folded up and remain in the upper resting position. This results in a double opening angle of preferably 60 °, so that this cassette for assembly or service purposes is accessible. Is this cassette 1 with detachable Locking pins 26 attached, so it can be loosened the locking pins 26 are removed from the cassette holder, which is a big advantage for certain assembly technologies is, e.g. for storing the cassette on the splicer for Splicing the fibers. At the top of the cassette holder 9 can still be seen an angle 11, which the swing frame 16th at a certain distance from the cassette block. The Free space is created for the accommodation of the protective covers of the single barrels used.

In summary, the functional sequence is the same as before was described in the original version, whereby however, when the locking cam 5 slides over the locking strips springs back again.

Claims (15)

1. Cable sleeve with a holding apparatus for cassettes for storing and splicing light waveguides, wherein each cassette is individually accessible and wherein further each cassette is arranged at a cassette holder in a locking mechanism and is hinged around a pivot axle running along a longitudinal edge and can be locked in at least one position, wherein the light waveguides are guided to the individual cassettes in a free space of the cassette carrier,
   characterized in that

   the pivot axle (3) is formed of two laterally projecting axle pins (4),

   that the axle pins (4) are provided with catch cams (5),

   that the locking mechanism is formed as a resilient catch rail (12) provided with latches and into which the catch cams (5) of the axle pins (4) can be snapped, wherein by pressure onto the catch rail (12) the latches can be unlocked,

   that the inlets (6) for light waveguides on a cassette (1) are respectively arranged at the longitudinal edge in the pivot axle (3),

   that the inlet direction of each inlet (6) runs at an angle to the pivot axle (3) and, pointing away from one another, tangentially to circular guide rails (2) for light waveguides, and

   that a reserve space (17) is formed by a pivoting frame (16) attached to the cassette carrier (9), in which uncut light waveguides and/or reserve leads are stored, and

   that the cassettes (1) are arranged in the end position and, respectively, resting position, superimposed at a downward angle of 30° with respect to the horizontal line, and that the cassettes (1) directed in the operating position at an upward angle of 30° can be simultaneously unlocked.
2. Cable sleeve according to claim 1, characterized in that a cassette is arranged as input/output cassette (EAK1, EAK2) and at least one cassette as splicing cassette (SK), that a light waveguide bundle lead (LBE) arriving from a ring cable (RK), preferably consisting of ten fibres (F), is introduced to the input/output cassette (EAK1, EAK2) and from here, given a two-fibre guiding is partitioned with respectively two fibres (F) to splicing cassettes (SK), preferably five splicing cassettes, and that the fibres (F) are spliced on the respective splicing cassette (SK) and are guided back again to the input/output cassette (EAK1, EAK2), and from here are guided in an outgoing light waveguide bundle lead (LBA1, LBA2) to a further distributor (V1, V2) and from here to the subscriber (TN1, TN2).
3. Cable sleeve according to claim 1,
   characterized in that

   a cassette is arranged as input/output cassette (EAK3, EAK4) and that at least one splicing cassette (SK) is arranged, that a light waveguide bundle lead (LBE3, LBE4) coming in from a ring cable (RK), preferably consisting of ten fibres (F), is introduced to the input/output cassette (EAK3, EAK4) and from here given a two-fibre guiding is partitioned with respectively two fibres (F) to splicing cassettes (SK), preferably five splicing cassettes, that the fibres (F) are spliced on the respective splicing cassette (SK) and are directly guided from here individually to subscribers (TN3.1 to 3.5, TN4.1 to 4.5), preferably with five light waveguide bundle leads (LBA3.1, LBA4.1...) with respectively two fibres (F3.1 to F3.5, F4.1 to F4.5).
4. Cable sleeve according to claim 1,
   characterized in that

   a cassette is arranged as input/output cassette (EAK5), a subscriber cassette (TNK) and at least one splicing cassette (SK) are arranged, that from the ring cable (RK) one arriving and one outgoing light waveguide bundle lead (LBE5, LBA5), preferably consisting of respectively ten fibres (F) are guided to the input/output cassette (EAK5), from here to splicing cassettes (SK), preferably five splicing cassettes, that the fibres (F) are spliced on the respective splicing cassette (SK) and are guided from here to a subscriber cassette (TNK) and are collected given a four-fibre-guiding to two light waveguide bundle leads (LB5.1, LB5.2), preferably at ten fibres respectively, and are guided from here to subscribers (TN5.1 to TN5.10).
5. Cable sleeve according to claim 1,
   characterized in that

   a cassette is arranged as input/output cassette (EAK6) and at least one splicing cassette (SK) is arranged, that from the ring cable (RK) an arriving and an outgoing light waveguide bundle lead (LBE6, LBA6), preferably consisting of respectively ten fibres, are guided to the input/output cassette (EAK6) and are partitioned to splicing cassettes (SK), preferably five splicing cassettes, wherein given a four-fibre guiding from here respectively two light waveguide bundle leads (LB6.1E to LB6.5E, LB6.2A to LB6.5A), preferably consisting of two fibres per light waveguide bundle lead, are guided to the subscribers (TN1 to TN5).
6. Cable sleeve according to claim 1,
   characterized in that

   a cassette as input/output cassette (EAK7) and at least one splicing cassette (SK) are arranged, that to the input/output cassette (EAK7) an arriving and an outgoing light waveguide bundle lead (LBE7, LBA7), preferably at ten fibres each, are guided and from here are partitioned to splicing cassettes (SK), that outgoing from the splicing cassettes (SK) given multiple-fibre- guiding to a subscriber light waveguide bundle leads, preferably five light waveguide bundle leads (LB7.1 to LB7.5) with respectively four fibres are guided to the subscribers, preferably to five subscribers (TN1 to TN5).
7. Cable sleeve according to any of the preceding claims,
   characterized in that

   the fibres and/or light waveguide bundle leads are guided between the individual cassettes in flexible protective sheaths or protective tubes.
8. Cable sleeve according to any of the preceding claims,
   characterized in that

   each cassette (1) can be taken out of the cassette carrier (9) individually or in a collective block.
9. Cable sleeve according to claim 8,
   characterized in that

   a protective sheath connection (29) is inserted in the cassette (1).
10. Cable sleeve according to claim 9,
    characterized in that

    the protective sheath connection (29) abuts against a comb (30) and that connected thereto grooves (31) are arranged in the cassette base for guiding fibres.
11. Cable sleeve according to any of claims 8 to 10,
    characterized in that

    hold-down clamps (7) for fibres are arranged on the cassette (1) and that the hold-down clamps (7) are bent downwards at the ends.
12. Cable sleeve according to any of claims 8 to 11,
    characterized in that

    the cassettes (1) can be removed together with the catch rails (12) from the cassette carrier (9).
13. Cable sleeve according to any of claims 8 to 12,
    characterized in that

    the cassettes (1) are detachably attached by locking pins (26) between the catch rails (12).
14. Cable sleeve according to any of claims 8 to 13,
    characterized in that

    the cassettes (1) are connected in a non-detachable fashion by locking pins (27).
15. Cable sleeve according to any of claims 8 to 14,
    characterized in that

    the cassette (1) is provided with a fixing angle (28), which reaches beyond the catch rail (12) and which forms a holder for the cassette (1) during removal.

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